Solar-panel unit

ABSTRACT

A solar-panel unit is provided with: an attachment structure; at least one solar panel, which is delimited by an extensive plane surface of incidence of the solar radiation and is connected to the attachment structure; and a hinging assembly, set between the attachment structure and the solar panel, to enable rotation of the solar panel with respect to the attachment structure about an inclined hinge axis forming an angle smaller than 90° with a horizontal plane.

The present invention relates to a photovoltaic-panel unit.

BACKGROUND OF THE INVENTION

In the field of use of solar energy, it is known to use solar-panel units, each of which comprises a supporting structure designed to be anchored to the ground, and a plate-type solar panel. In some applications, the plate-type solar panel is stably connected to the supporting structure, whilst in other cases the supporting structure is hinged to a fixed support for turning whit the panel about a vertical axis.

Albeit used, the known solar-panel units of the type described above prove to be not altogether satisfactory as regards efficiency, in so far as the presence of a single panel and the adjustment about a vertical axis do not enable optimal exposure to solar radiation to be obtained, above all owing to the fact that different areas of the panel at different times of the day are in partial or total shade, thus reducing the efficiency of the unit proportionally.

SUMMARY OF THE INVENTION

The aim of the present invention is to provide a solar-panel unit that will enable a simple solution at contained costs of the problems set forth above.

According to the present invention, a solar-panel unit is provided comprising an attachment structure, and at least one solar panel delimited by an extensive plane surface of incidence of solar radiation and connected to said attachment structure, said solar-panel unit being characterized in that it moreover comprises hinge means set between said attachment structure and said panel to enable rotation of said solar panel with respect to said attachment structure about an inclined hinge axis forming an angle smaller than 90° with a horizontal plane.

Preferably, in the unit defined above, said inclined hinge axis is substantially parallel to said plane surface of incidence of said solar radiation.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described with reference to the annexed drawings, which illustrate a non-limiting example of embodiment thereof, and in which:

FIG. 1 is a partial perspective view of a first preferred embodiment of a solar-panel unit according to the present invention;

FIG. 2 illustrates, in side view, a second preferred embodiment of the solar-panel unit according to the present invention;

FIG. 3 illustrates a detail of FIG. 2 in different functional positions; and

FIG. 4 is an enlarged perspective view of the detail of FIG. 3.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1, designated as a whole by 1, is a solar-panel unit comprising a supporting structure 2, which is designed to be fixed to a fixed support 3 and in turn comprises a bottom cross member 4 and a top cross member 5, which is set parallel and in raised position with respect to the bottom cross member 4 itself.

Once again with reference to FIG. 1, the unit 1 moreover comprises a plurality of inclined solar panels 7 extending in positions set alongside one another between the cross members 4 and 5 and orthogonal to the cross members 4 and 5 themselves. Each solar panel 7 conveniently has an elongated rectangular shape, is delimited by an extensive plane surface 9 of incidence of the solar radiation, and is, preferably but not necessarily, of a photovoltaic-cell type.

Each panel 7 comprises respective opposite end portions 10, hinged to the cross members 4 and 5 via respective hinge-pins 11 for turning in opposite directions about a fixed inclined fulcrum or hinge axis 13 of its own extending within the panel 7 itself. The inclined axes 13 are parallel to one another and form with a horizontal plane an angle B smaller than 90°, conveniently ranging between 30° and 60° and, preferably, in the region of 45°. The panels 13 can turn with respect to the structure 2 about the respective inclined hinge axes 13 under the thrust of a single driving motor 15 of a lever transmission 16, coupled, in a way in itself known, to the mobile member of the motor 15, on one side, and to each panel 7, on the other. According to a variant (not illustrated), the motor 15 is replaced by a manual actuation lever.

In this way, following upon actuation of the motor 15 or by acting manually on the lever, the panels 7 are simultaneously turned in opposite directions about the respective hinge axes 13 and set in an optimal position for reception of the solar radiation.

The embodiment illustrated in FIGS. 2 to 4 regards a solar-panel unit 18, which differs from the unit 1 for some details of implementation, and the constituent parts of which are distinguished, wherever possible, by the same reference numbers as the corresponding parts of the unit 1.

In the unit 18, each solar panel 7 is coupled to the cross members 4 and 5 via an adjustment assembly 19, designed to enable continuous adjustment of the position of the panel 13 and hence of its surface 9 of incidence of the solar radiation with respect to the structure 2 about the fixed inclined hinge axis 13 and about two mobile hinge axes 20 and 21 orthogonal to the axis 13.

With specific reference to FIGS. 2, 3 and 4, the assembly 19 comprises, for each longitudinal end portion, an adjustment device 23, which is set in the proximity of a perimetral edge of the corresponding panel 7 and comprises a bracket 24 for attachment to the corresponding cross member 4, 5, which in turn comprises a hinge-pin 25, which extends coaxially the corresponding axis 13 and is rotatably inserted and axially fixed in position within a blind hole, which is also coaxial to the corresponding axis 13. In a direction parallel and opposite to the pin 25, the bracket 24 moreover comprises a slotted portion 26 (FIG. 4), the slot 27 of which extends parallel to the axis 13 in a position that is eccentric with respect to the axis 13 itself and is traversed by the stem of a fulcrum screw 28 extending coaxially to the corresponding axis 20, 21. The stem of the screw 28 also traverses the slot of a slotted portion 29 of a further bracket 30, which forms part of the corresponding device 23, and an attachment portion 31 of which is fixedly connected to the panel 7 on the opposite side to the surface 9 of incidence. The slotted portion 29 is curved with the concavity facing the slotted portion 29 of the corresponding opposite device 23.

The slotted portions 26 and 29 of each device 23 enable adjustment of the position of the surface 9 of incidence with respect to the structure 2 and in particular continuous variation of the angle A (FIG. 2) of positioning formed between the surface 9 itself and the fixed hinge axis 13. The variation of said angle A is subordinate to the length of the slotted portions 26, 29. In the particular embodiment, the angle of positioning A preferably ranges between 20° and 30°.

In use, the angle A is adjusted until it reaches a desired value, after which the screws are tightened, thus stably blocking the corresponding brackets 24 and 30 in corresponding fixed positions. At this point, via the motor 15 or the manual actuation lever, the panels 7 are rotated, each, about the corresponding inclined axis 13 between two angular end-of-travel positions (indicated with a faint line in FIG. 3), set on opposite sides of a central reference position, illustrated with a heavy line once again in FIG. 3.

From the foregoing, it appears evident how the units 1 and 18 described, since they enable adjustment of the panels 7 about inclined axes that intersect or are set in a position close to the corresponding surfaces of incidence have, with respect to the known solutions, levels of efficiency that are considerably higher in so far as the adjustments envisaged enable optimization of the exposure of the panels to solar light.

From the foregoing, it appears evident that modifications and variations can be made to the units 1 and 18 described herein, without thereby departing from the scope of protection defined by the claims. In particular, the panels 7 can be coupled to the attachment structure via adjustment devices that are different from a constructional point of view from the ones indicated but are such as to enable the adjustments described. 

1. A solar-panel unit comprising an attachment structure, and at least one solar panel delimited by an extensive plane surface of incidence of the solar radiation and connected to said attachment structure, characterized in that it moreover comprises hinge means set between said attachment structure and said panel to enable rotation of said solar panel with respect to said attachment structure about an inclined hinge axis forming an angle smaller than 90° with a horizontal plane.
 2. The unit according to claim 1, characterized in that said inclined hinge axis is substantially parallel to said plane surface of incidence of said solar radiation.
 3. The unit according to claim 1, characterized in that said inclined hinge axis extends within said panel.
 4. The unit according to claim 1, characterized in that said inclined hinge axis forms an angle of positioning different from zero with said surface of incidence of the solar radiation.
 5. The unit according to claim 4, characterized in that it comprises adjustment means for varying said angle of positioning.
 6. The unit according to claim 5, characterized in that said adjustment means are means for continuous adjustment.
 7. The unit according to claim 5, characterized in that said adjustment means are associated to an external perimetral edge of said panel.
 8. The unit according to claim 1, characterized in that it comprises at least one further solar panel set alongside said solar panel; further hinge means identical to said hinge means being set between said further solar panel and said attachment structure to enable rotation of said further solar panel with respect to the attachment structure about a further inclined hinge axis.
 9. The unit according to claim 8, characterized in that said inclined hinge axes are parallel to one another.
 10. The unit according to claim 8, characterized in that said inclined hinge axes are set at a transverse distance apart from one another by an amount such as to enable rotation in opposite directions of the respective said solar panels about the respective said inclined hinge axes.
 11. The unit according to claim 8, characterized in that it comprises a plurality of said solar panels set alongside one another.
 12. The unit according to claim 1, characterized in that it comprises motor-driven actuator means for turning each said panel about the corresponding said inclined hinge axis. 